According to UNEP, the energy consumption and greenhouse gas discharged by buildings are responsible for about 40% of the global energy used. Thus, the energy efficiency is an important mean of reducing greenhouse gas emission. Among the improving methods, we put our attentions on energy efficiency to cut energy waste, especially on electricity consumption. In the past decades, the rate of buildings with Building Automation System (BAS) is increasing. BAS integrates electrical consumption, temperature, humidity and so on, which depends on the building. With various kinds of record, BAS allows data mining techniques to support decision making. The first part of our research developed an approach of feature extraction and a prediction structure which will be utilized in energy forecasting. To begin with, we analyzed user behavior by data visualization. Next, we selected the appropriate sensors to obtain training data through observing the results on the last step and literature reviews. At the last, we apply support vector regression (SVR) and weighted linear regression to train a regression model. In the second part of this study, we presented some deep learning structures to forecast electricity consumption. In the last part of our research, we combined some ways to select proper sensors. In addition, we made multiple steps to train a better model. To solve difficult problems such as that features are hard to describe, we integrated Deep Learning in this chapter. To sum up, we build a flexible and accuracy architecture which different BAS data and field can be applied in. In additional, we also provide a clear method and process as an example, so that people can select the appropriate forecasting architecture based on the characteristics of their data.